3M Abrasives for Powertrain Components Driven by Innovation A portfolio of high-performance abrasives and dressing systems, engineered to take you to the next level of precision and productivity 3
Engineered for precision and productivity Ever since the first mass-produced cars rolled off the assembly line in the early 20th century, 3M abrasives have been helping manufacturers improve productivity and enhance the quality of products that move our modern world. Through the years we have continued to expand our abrasive technology offerings to meet the growing needs of customers who produce sophisticated components for automotive engines and transmissions, as well as oil and gas drilling equipment, cutting tools, aircraft, turbines and many others. Today we are pleased to offer one of the world s most extensive portfolios of precision abrasives for grinding and finishing powertrain components. In these pages, you will find a selection of some of our most advanced abrasive products used in these applications. Your 3M representative can help you select specific products best suited for your requirements. From grinding-to-dimension to microfinishing, 3M has the tools you need to help you be more productive, while achieving stringent geometry tolerances and finish specifications, part after part. 2
A proud history of innovation Founded in 1902 to mine minerals used in grinding wheels, 3M has grown to become one of the world s leading manufacturers of highperformance abrasive products, with a broad portfolio ranging from sandpaper for the doit-yourself market to advanced abrasives used by the automotive, aerospace, electronics and medical device industries. Building on its century-long legacy of expertise in coated abrasives, including the introduction of the first waterproof sandpaper, the development of synthetic ceramic abrasive grain and microreplicated abrasive shapes under the 3M Trizact brand, 3M began an aggressive expansion into bonded abrasives in the 1990s with a series of strategic acquisitions. These include companies such as GIDCO, UNIFAM, DPI and, in 2011, Winterthur Technology Group, one of the world s top manufacturers of industrial bonded abrasives. 3
Abrasive Technologies Overview 3M Abrasives for Powertrain Components 3M offers a complete line of high performance abrasive wheels in shapes, sizes and constructions designed to meet the needs of the most demanding applications. They are available in three general abrasive types within powertrain component applications: Conventional Conventional grinding wheels with aluminum oxide or silicon carbide abrasive minerals play an important role in metalworking applications. For grinding processes such as gears in the automotive industry and cylindrical grinding of gasoline and diesel injection components, conventional grinding wheels offer a precise and cost-effective means of production. Cubic Boron Nitride (CBN) CBN abrasives are second only to diamond in hardness. This makes CBN wheels highly durable, with accurate geometric control. Ideal for grinding hardened materials and superalloys, CBN abrasives can be used in a variety of bonding systems, including vitrified and electroplated bonds, to tailor wheel performance to specific applications. Available in grit sizes 50 600. Alloys of steel Ferrite 50 and/or tungsten Austenite 100 carbide Martensite 1000 Abrasives 1400 Cementite 2200 Chromium Carbide 2400 Niobium Carbide 2800 Tungsten Carbide 2800 Vanadium Carbide 3200 Titanium Carbide 2200 Al2O3 2700 SiC 4500 CBN Diamond 3M Precision-Shaped Grain 3M first introduced this breakthrough technology in 2009 with the launch of 3M Cubitron II Fiber Discs and Belts. Comprised of uniformly sized triangles of ceramic aluminum oxide, 3M precisionshaped grains are designed to fracture as they wear, continuously forming sharp points and edges that slice cleanly through the metal like a knife, instead of gouging or plowing. This prevents heat from building up in the workpiece reducing heat-related stress cracks and discoloration. And, because the abrasive itself stays cooler and sharper, it lasts up to four times as long as conventional ceramic grain. With conventional abrasives, standard grinding consumes up to 10 times more energy than other metal removal processes, such as turning or milling. The sharp cutting edges of Cubitron II Grinding Wheels, however, use less energy than standard grinding while diverting heat away from the workpiece. The free-cutting properties and superior service life of Cubitron II Wheels can help improve efficiency and drive down costs, compared to conventional ceramic wheels. The science of 3M Precision-Shaped Grain The secret behind the strength and performance of Cubitron II vitrified wheels lies in the revolutionary precision-shaped ceramic grain technology pioneered by 3M. As the triangular shaped grain wears, it continuously fractures to form sharp points and edges that slice through metal, wear evenly and provide super-long life and consistency. 3M Precision-Shaped Grains slice through metal staying cooler, cutting faster and lasting longer. Conventional ceramic abrasive grain tends to plow through the metal, causing heat to build up in the workpiece and the abrasive. 8800 Hardness Comparison (Knoop kg/mm2) Power and Precision 4
The next generation of vitrified bonds Most vitrified wheel bonds consist mainly of naturally occurring raw materials such as kaolin (porcelain clay), feldspar and glass frits, all of which are subject to variations in quality. Such variability is ill-suited to modern automated grinding processes operating with pre-determined machining parameters. To ensure more uniform batch quality, 3M uses fully synthetic recrystallized glasses in the bonding systems of their vitrified wheels. Due to their high inherent strength, these glasses can be used in smaller quantities than standard bonding materials, allowing increased porosity without compromising wheel strength. 3M Vitrified Grinding Wheels feature advanced bonding systems for various applications. Strength Partially crystallized glass bond wheels have high inherent strength and can be used in smaller quantities than standard bonding materials. This allows for a reduction of 10% in overall bond material and a simultaneous equal increase in the porosity, without any loss of wheel strength. Consistency These grinding wheels feature special bond grain surface structures based on nanotechnology. The grinding wheel remains free-cutting throughout the entire process and life of the wheel while the machine uses less spindle drive power, all resulting in more consistent surface structures. Economical 3M can also offer bond systems to deliver higher material removal rates along with lower risks of burning, better profile holding and reduced reject rates. In short, this bond offers the end user significantly lower grinding costs and more stable processes and it is also very easy on diamond dressing tools. The bond of a grinding wheel is what holds the abrasive material in place, but by itself does not grind. Generally, the more bond in a wheel construction, the higher the danger of burning and micro-cracking within the part; the less bonding material, the cooler the wheel will grind. To achieve optimum performance, wheels should be constructed with as little bonding material as necessary to preserve mineral retention and maintain wheel integrity and safety. 3M abrasive materials for powertrain applications are applied to wheels using one of two bonding methods: Vitrified wheels feature a ceramic bond designed to be more free cutting than metal bond wheels. Vitrified bonds provide the better characteristics of both resin and metal bonded products. They are brittle, but thermally stable and suitable for in-process dressing. Their dressability makes them particularly well-suited for form grinding applications, especially on automatic equipment. When used with diamond abrasive, they are ideal for grinding carbide, ceramics, CVD, PCD and metal matrix composites. With CBN, ceramic or conventional abrasives, they are commonly used for grinding hardened steel, tool steels and superalloys, and are particularly suitable for powertrain components, bearings, aircraft engine and power turbine components. Electroplated wheels enable high material removal rates with less generation of heat, making them ideal for hard materials such as nickel and cobalt-based alloys, ceramics and tungsten carbide. Employing a single layer of diamond or CBN abrasive electroplated to a substrate, these wheels can be constructed with tight dimensional tolerances. They are typically not trued or dressed. Bonding Systems Overview Grinding Wheel Structure: Abrasive Bond Pore Bond Crystal Chains 5
An Introduction Grinding Overview to Grinding The following diagram describes some of the most common factors that can impact a particular grinding process: Changing the Infeed or Depth of Cut a e Machine Tool Power Stiffness Fixtures Accuracy Workpiece Grindability Hardness Dimension Increasing the infeed Increased material removal rate Bigger chips Decreasing the infeed Reduced material removal rate Smaller chips Dressing Dressing tool type Diamond quality Dressing parameters Coolant Coolant type Filtration Coolant flow Temperature Lubricity Tool Life Surface Finish Cutting Force Part Geometry Power Consumption Machine Parameters Cutting speed Workpiece speed Depth of infeed Grinding Wheel Abrasive Hardness Porosity Higher load on individual grain Lower load on individual grain Increased friability of grain Decreased friability of grain > The grinding wheel acts softer > The grinding wheel acts harder Changing the Workpiece Feed Rate v w Increasing the feed rate Increased material removal rate Bigger chips Higher load on individual grain Increased friability of grain Decreasing the feed rate Reduced material removal rate Smaller chips Lower load on individual grain Decreased friability of grain > The grinding wheel acts softer > The grinding wheel acts harder Depth of Cut (per pass): a e Workpiece speed: v w Cutting or surface speed: v c Grinding wheel diameter: d s Lubricity of grinding fluid 6
Changing the Wheel Cutting Speed v c The Aggressiveness Factor The specific material removal rate Q w ' (also known as Q-prime) is often used to evaluate the performance of a grinding wheel. Q-prime indicates how many mm 3 one (1) mm wheel width removes per second (mm 3 /mm/sec). To calculate Q-prime, two parameters are needed: depth of cut a e and the feed-rate v w. The simple formula for surface grinding is as follows: Grinding Overview Increasing the cutting speed More cutting edges engaged per unit of time Smaller chips Lower load on individual grain Decreased friability of grain Decreasing the cutting speed Fewer cutting edges engaged per unit of time Bigger chips Higher load on individual grain Increased friability of grain > The grinding wheel acts harder > The grinding wheel acts softer Q w ' = a e v w 60 Changing the Wheel Diameter d s (at the same Wheel Cutting Speed v c ) 1 sec 1 mm 3 1mm Increasing wheel diameter Increased contact area A k between wheel and workpiece Grinding forces remain practically constant Lower load on individual grain Decreased friability of grain Decreasing wheel diameter Decreased contact area A k between wheel and workpiece Grinding forces remain practically constant Higher load on individual grain Increased friability of grain Recommended Q-Prime Values: 0.3 mm 3 /mm/sec Finishing 1.0 mm 3 /mm/sec Good average 1.5 mm 3 /mm/sec Target value 5.0 mm 3 /mm/sec High performance grinding with ceramic abrasives or CBN > The grinding wheel acts harder > The grinding wheel acts softer 7
Grinding Applications Gear Grinding Gear grinding requires high precision throughout the process, and it is important to use the right grinding wheel for the application. The selection of abrasive material and wheel configuration depends on the base alloy, tooth geometry and size of the production run, among other factors. 3M s recently expanded abrasives portfolio can help you meet the growing demand for tighter dimensional tolerances and shorter production schedules, even with difficult-to-grind materials. Gear grinding operations Continuous generation with threaded (or worm ) wheels produces a very accurate and consistent profile. Advantages include low cumulative pitch error, constant contact with gear profile, and short machining cycles. Form or profile grinding with single rib wheels is increasingly used over single flank generation. The gear tooth profile is dressed into the grinding wheel by means of a CNC contour controlled diamond dressing disc. The grinding wheel is then fed into the tooth gap, either vertically or with a rotary infeed. This process can be compared to creepfeed grinding. Plunge grinding is primarily used with spiral bevel gears with induced porosity, because of the larger contact surface areas required. Generation with five axes with standard structure grinding wheels is used principally for spiral bevel pinions. Continuous profile plunge grinding with globoidal wheels combines the best aspects of form and plunge grinding. Very short grinding times and high accuracy; economic highvolume production; improved noise characteristics of gears. 3M Abrasives for Powertrain Components Abrasive materials for gear grinding Gears are usually made of low to medium-hard alloys or quenched and tempered steel, and for economic reasons these materials are usually ground with conventional abrasives. CBN may be useful for grinding hardened steel, with large lot sizes, or for driveshafts featuring multiple gear wheels that prevent the use of threaded grinding wheels. Some gearbox manufacturers use electroplated CBN grinding wheels in order to reduce noise generation when paired with gears manufactured by other methods. CBN grinding can also generate compressive, residual stress on the gear flank surface, which increases the life of the component. Recommended Products 3M Abrasives for Gear Grinding are engineered to help you achieve consistent, high-quality finishes and tight geometry tolerances, part after part while increasing the efficiency and productivity of your operations. 3M Cubitron II Vitrified Wheels for Gear Grinding threaded, single rib and spiral bevel configurations. For automotive applications; pinion shafts; planetary, spur, hollow and pinion gears. Removal Rate, Q' w (mm 3 /mm/s) 25 20 15 10 9.7 5 3.02 0 Double Flank Roughing & Finishing Traditional Vitrified Conventional Wheel Parts per Wheel 9 8 7 6 5 4 3 2 1 0 4 6 Double Helical Bull Gear 4.77 18.6 Double Helical Bull Gear 21.8 Cubitron II Single Rib Wheel 3M Vitrified CBN Wheels porous and nonporous structures; soft-grinding or extremely wear-resistant. Available in continuous rim (up to 30 in. diameter) or segmented rim sections to form threaded wheels. 3M Electroplated CBN Wheels threaded or single rib wheel. These high-performance galvanic electroplated wheels are either noncrushed (for roughing processes) or crushed (for fine surface finishes). Crushing is performed with tungsten carbide rolls, after plating, to achieve the necessary profile accuracy. 3M Vitrified Wheels These grinding wheels feature special bond grain surface structures based on nanotechnology. 2.5 6.4 Double Helical Pinion 8 Double Helical Pinion 8
American Gear Terminology Calculating Wheel Thickness for Worm or Threaded Gear Grinding Single-Rib Wheels Multi-Rib Wheels Grinding Applications Surface speed Vc Shift movement (mm/mm/stroke) y Infeed a e max (mm per stroke) z x Feed rate f z max (mm/rev) B = p + 2 mn tan 2 when = 20 B 20 mn 2.3 when = 15 B 15 mn 2.1 B = Wheel Thickness p = Pitch mn = Module B 1 = z mn B = Wheel Thickness z = Number of Teeth mn = Module h = Pitch Wheel Specifications for Generating Grinding of Gear Flanks Ordering Data Example Type 1Esp 300 x 32 x 127 V = 70, U = 5 54A80 H15VPMF904W Gear Grinding with Ceramic Abrasives Order Data Examples Pre-profiled grinding worm: Type 1sp 350 x 104 x 160 93A120 G12VP601-50 m/s Module 4, PA 20 Single start Straight non-profiled wheel: Type 1 350 x 104 x 160 93A120 G12VP601-50 m/s 9
Grinding Applications Camshaft and Crankshaft Grinding 3M s comprehensive abrasives portfolio offers solutions from rough grinding to superfinishing of steel and cast steel alloys ideal for camshaft and crankshaft applications. Camshaft and crankshaft grinding operations Main contour grinding is performed by CBN wheels with either continuous or segmented rims; both centerless and OD cylindrical grinding operations are used. Applications include bearings/ journals, crankpin, flange and post end. Pin Bearing 7B151-VY150L/411 Thrust Faces B126-VR150N/156 Cam lobes with concave/negative contours cause less friction and allow higher valve lift acceleration. This lobe design helps reduce fuel consumption and increase engine efficiency. These contours are ground with vitrified CBN wheels in the range of Ø 70 to 100 mm (Ø 3 to 4 inch). Post End B151-V062 Recommended Products 3M Cubitron II Vitrified Wheels for automotive and truck applications, including journals, crank and thrustwall. Camshaft Grinding: 3M Cubitron II Wheels vs. Traditional Vitrified Conventional Wheels Parts per Wheel Avg. 3 parts processed Traditional Vitrified Conventional Wheel Cycle Time per Part Avg. 13.6% less cycle time! Cubitron II Wheel Main Bearing B126-VY150L/194 Standard lobe contour Negative Lobe Contour Thrust Faces and Bearing in Plunge Grinding B126-V046 3M Electroplated CBN Wheels non-crushed for roughing or crushed for fine surface finishes. High-performance and high-precision. Ideal for grinding pins, bearings and face slots. 3M Vitrified CBN Wheels available in continuous rim (up to 30 in. diameter) or segmented rim sections. Variable density and porosity, can be adapted for your application specifications. Ideal for grinding camshaft lobes and bearings. Abrasive materials for camshaft & crankshaft grinding Recommended CBN grit concentrations differ according to the application: Crankshaft grinding: 125 (rigid machines up to 150) Camshaft grinding: 150 200 10
Recommended Products As with all grinding operations, the choice of abrasive depends on the specific application. A distinction is made here according to the HRc hardness classification. 3M Cubitron II Vitrified Wheels for nitrided steel, tool steel, casehardened steels and high speed steel (HSS). OD Cylindrical Grinding: 3M Cubitron II Wheels vs. Traditional Vitrified Conventional Wheels Material Removal Rate (Q-Prime) Avg. 5 material removed Traditional Vitrified Conventional Wheel Cycle Time per Part Cubitron II Wheel Avg. 84% less cycle time! 3M Vitrified CBN Wheels for hardened steels from 55 to 70 HRc. Ideal for highspeed automotive applications particularly on modern materials that cannot be economically ground with conventional abrasives, such as powder metallurgical steel and high-alloy tool steel. 3M Vitrified Wheels for soft and hardened steel, case hardened steel and Inconel. As cylindrical grinding technology continues to evolve, 3M has invested in the development of a wide variety of high-quality grinding wheels to remove material faster, at precise tolerances, without damaging the substrate. We have wheels available for the most popular worm grinding, form grinding, plunge grinding and transverse grinding machines. Cylindrical grinding operations Outside diameter (OD) grinding is one of the most frequently used grinding techniques. The workpiece is clamped firmly between two centers and rotated. The grinding wheel is fed in one of two principle directions: Plunge grinding is often divided into several process steps, performed in sequence with decreasing material removal rates. Right-angle plunge grinding is used to machine bearing seats, shoulders and grooves. Angle plunge techniques may be more productive in certain applications. Transverse grinding is used for workpieces significantly longer than the width of the grinding wheel. The wheel moves parallel to the workpiece and is fed at right angles in several passes. Ordering Data for Wheel Types 1, 5 & 7 Type 1 DxTxH Cylindrical Grinding Peel grinding is a variant of transverse grinding performed in a single, slow pass. CBN grinding wheels are well suited for the greater infeed rates typical of this process, as they offer the necessary strength at the edge of the wheel. This method is used in the production of transmission and drive shafts. Inside diameter (ID) grinding is used to refine bores with a high-precision fit. Grinding wheels, attached to a spindle shank, should achieve a cool cut with the lowest possible contact pressure and optimum free-cutting performance. Form grinding can be used to produce cylinders, cones, straight collars, chamfers and concave/convex profiles in a single wheel mounting. This technique offers a high level of flexibility and fast rate of material removal. Face Shapes of Wheel Types 1, 5 & 7 Grinding Applications Applications Balance shafts Piston rings Turbine components and shafts Steering racks Fuel injection systems (pumps, injectors) Drive shafts Type 5 DxTxH 1 - PxF Type 7 DxTxH 2 - PxF/G Type 1B Type 1C Type 1D Type 1E Type 1F Type 1M Type 1N Type 1P For all other wheel types please consult our main catalogue. 11
Grinding Applications Centerless Grinding Because of its speed and relative economy, centerless grinding has traditionally been used for higher volume processing of cylindrical shapes. However, advances in both machine tool and grinding wheel technology have made centerless grinding a viable alternative for small and medium production runs, including those requiring tight tolerances and fine finishes. 3M offers a broad range of wheel constructions optimized for centerless grinding. We can also help you optimize your process with Optima software, which provides realistic grinding and dressing parameters such as feed rates, infeeds, wheels speeds and more that can be directly employed in your CNC equipment. Recommended Products 3M Cubitron II Vitrified Wheels Ideally suited for use on carbon steels, tool steels and high alloy steels. Produces optimal results with high infeed rates, high grinding pressures and high material removal rates. 3M Vitrified and Electroplated CBN Wheels Very cool cutting, for use on high alloy and hard steels from 55 to 70HRc. 3M Vitrified Wheels High temperature resistance, for less cold welding of chips. Excellent on high alloy and hard steels, grey cast iron and non-ferrous metals. Applications Piston pins Turbine components Valve/valve train 12
Recommended Products 3M Microfinishing Films 372L, 373L and 272L Microfinishing A microfinishing process employs rigid shoes to support the abrasive film. The workpiece, such as a crankshaft or a camshaft, is turned and oscillated between centers as shoes introduce the abrasive to the workpiece. Fresh abrasive is incrementally indexed after each part is processed, resulting in uniform stock removal and finish, part after part. Microfinishing removes the damaged or amorphous layers to improve the surface finish and roundness of the part. 3M Microfinishing Film 3M Microfinishing Film is a fast cutting abrasive that can produce consistent, predictable and repeatable high quality finishes. The abrasive particles are electrostatically oriented, then resinbonded to a polyester film backing to give an aggressive cut with a uniform finish. Available in 9 100 micron grades. Finishing Product Mineral Backing Caliper Backside (0.001 ) Grades (Microns) 9 15 20 30 40 50 60 80 100 372L Aluminum Oxide 5 Type S 372L Type 2 (colored) Aluminum Oxide 5 Type S 373L Aluminum Oxide 5 Type Q 373L Type 2 (colored) Aluminum Oxide 5 Type Q 272L* Aluminum Oxide 5 Type S * Available globally in wide rolls and belts These films are color-coded by grade and feature side of roll printing and end of roll marking to reduce selection errors. 13
Dressing Systems Dressing Systems 3M develops and supplies precision dressing systems for all types of grinding machines. Dressing system quality has a determining influence on the efficiency and economy of the overall grinding process. For this reason, dressing systems require high-quality components in terms of both stiffness and precision. 3M Dressing Systems meet the highest requirements, whether for standard versions or custom built solutions. Inline Cantilever Spindles 3M Stationary Dressing Tools Natural diamond stone, set in steel shanks of various shapes. For straight or form dressing of conventional grinding wheels. Outboard Support Dresser Spindles Quick Change Spindle Arbors 3M Rotary Dressing Discs 3M also manufactures a variety of diamond dressing discs for use on CNC machines, suitable for dressing conventional and superabrasive wheels. Available in diameters from 1" to 8. Rotary Dressing Disc Popular Shapes CDD-100 CDD-200 CDD-300 Infeed Dresser Systems CDD-400 CDD-500 CDD-600 14
Flexibility vs. Set-up Time Diamond profile dressing rollers To shape grinding wheels in the shortest possible time Profiling of the grinding wheel in only one operation using the plunge-cut dressing method Extreme accuracy, even with highly complex profile contours Highest cost-effectiveness In general, every dressing technique involves a compromise: the more time spent during set-up, the more flexibility you have during operation, and vice-versa. This graphic illustrates some typical tradeoffs between set-up time and flexibility offered by some common dressing methods, Less Composite Profile Diamond Roll Modules between 1.3 and 5 One-start designs Medium to large production runs Integrated profile Less Dressing Systems Vr Diamond profile roller Vsd frd nr Grinding wheel nsd Full Profile Diamond Roll Modules < 1.3 Multi-ribbed Negative electroplating Integrated radius dressing and root radius grinding V S Diamond form dressing rollers Profiling of the grinding wheel along the desired contour by moving the diamond dressing roller Extreme accuracy for simple and highly complex profile contours Highest cost-effectiveness Set-Up Time Diamond Profile Roll Independent of module size Positive electroplating Radius dressing and root radius grinding not integrated Flexibility V R Vfa Vfr More Double Taper Disk Full module range Positive electroplating Tip radius dressing is not integrated More 15
Safety in the Use of Grinding Wheels The recommendations as set out below are only a summary of the most important precautions. All users must strictly comply with the safety instructions in the laws, regulations and technical standards of their country. USA American National Standards Institute (ANSI) Safety requirements for the use, care and protection of abrasive wheels, Standard B7.1, 1988. Also consult the Occupational Health and Safety Act of 1970 (OHSA). Europe FEPA Safety Code, obtainable from: FEPA 20, Avenue Reille 75014 Paris France For additional information, visit www.3m.com/precisionpowertrain Warranty, Limited Remedy, and Disclaimer: Many factors beyond 3M s control and uniquely within user s knowledge and control can affect the use and performance of a 3M product in a particular application. User is solely responsible for evaluating the 3M product and determining whether it is fit for a particular purpose and suitable for user s method of application. Unless an additional warranty is specifically stated on the applicable 3M product packaging or product literature, 3M warrants that each 3M product meets the applicable 3M product specification at the time 3M ships the product. 3M MAKES NO OTHER WARRANTIES OR CONDITIONS, EXPRESS OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, ANY IMPLIED WARRANTY OR CONDITION OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OR ANY IMPLIED WARRANTY OR CONDITION ARISING OUT OF A COURSE OF DEALING, CUSTOM OR USAGE OF TRADE. If the 3M product does not conform to this warranty, then the sole and exclusive remedy is, at 3M s option, replacement of the 3M product or refund of the purchase price. Limitation of Liability: Except where prohibited by law, 3M will not be liable for any loss or damage arising from the 3M product, whether direct, indirect, special, incidental or consequential, regardless of the legal theory asserted, including warranty, contract, negligence or strict liability. 3 Abrasive Systems Division 3M Center, Building 223-6S-03 St. Paul, MN 55144-1000 1-866-279-1235 www.3m.com/abrasives Please recycle. Printed in USA. 3M 2014. All rights reserved. Issued: 3/14 9602HB 61-5002-8347-0 3M, Cubitron and Trizact are trademarks of 3M Company. Used under license by 3M subsidiaries and affiliates.